PMGETOPTIONS(3) | Library Functions Manual | PMGETOPTIONS(3) |
pmgetopt_r, pmGetOptions, pmGetContextOptions, pmFreeOptions, pmUsageMessage - command line handling for PMAPI tools
#include <pcp/pmapi.h>
int pmgetopt_r(int argc, char *const *argv,
pmOptions *opts);
int pmGetOptions(int argc, char *const *argv, pmOptions
*opts);
int pmGetContextOptions(int ctx, pmOptions *opts);
void pmUsageMessage(pmOptions *opts);
void pmFreeOptions(pmOptions *opts);
cc ... -lpcp
The pmGetOptions function provides command line option processing services for both monitor and collector PMAPI(3) tools. It is modelled on the thread-safe variants of the GNU getopt_long(3) API, and primarily differs in its focus on providing generalised processing for the (de-facto) standard PCP command line options described in PCPIntro(1). These common options include the host and archive specification, time windows, timezones, sample counts, time intervals, and so on.
The primary interface is pmGetOptions, which should be passed the argc argument count and argv array, as passed to the main() function on program invocation. The final opts argument describes the set of long and short options the tools is prepared to process, and other metadata regarding how those options should be processed.
The pmgetopt_r interface, used internally by pmGetOptions, behaves in a similar fashion, but it does not perform any common option processing. It is more suited to PCP collector processes, whereas PCP monitor tools tend to use pmGetOptions.
The opts argument consists of an array of pmLongOpts entries describing the arguments, as well as the enclosing pmOptions struct, which are defined as follows (internal fields are not presented, for brevity):
typedef struct {
const char * long_opt;
int has_arg;
int short_opt;
const char * argname;
const char * message; } pmLongOptions; typedef struct {
int version;
int flags;
const char * short_options;
pmLongOptions * long_options;
const char * short_usage;
pmOptionOverride override;
int index;
int optind;
int opterr;
int optopt;
char *optarg;
/* [internal fields, undocumented] */
int errors;
int context; /* PM_CONTEXT_{HOST,ARCHIVE,LOCAL} */
int nhosts;
int narchives;
char ** hosts;
char ** archives;
struct timeval start;
struct timeval finish;
struct timeval origin;
struct timeval interval;
char * align_optarg;
char * start_optarg;
char * finish_optarg;
char * origin_optarg;
char * guiport_optarg;
char * timezone;
int samples;
int guiport;
int padding;
unsigned int guiflag : 1;
unsigned int tzflag : 1;
unsigned int nsflag : 1;
unsigned int Lflag : 1;
unsigned int zeroes : 28; } pmOptions;
The initial flags and version fields describe how the rest of the pmOptions structure is to be interpreted. These fields can be zeroed, specifying a default interpretation. Alternatively, the PMAPI_VERSION macro can be used to specify the API level to use (currently, values of 2 or less are allowed). The flags field can be used to modify option processing behaviour as described in the ``FLAGS VALUES'' section below.
The array of long_options pmLongOpts structures must be terminated by a sentinel and the PMAPI_OPTIONS_END macro can be used to effect this termination. Individual records within the long_options array can be of two types - options headers, or actual options. An options header is constructed using the PMAPI_OPTIONS_HEADER macro, and is used for usage message option grouping. Free form text can be inserted into the usage message at any point using the PMAPI_OPTIONS_TEXT macro - this is intended for additional explanatory text covering detailed usage that is beyond the scope of the individual headers or options. Otherwise, the array entry specifies an option. These should be named (long_opt) if a long-option form is allowed, specify whether or not they take an argument (has_arg), specify the single character variant argument (short_opt) if a short-option form is allowed, and finally specify how to present the option in the usage message. This latter component consists of a short, one-word description of the optional argument (argname) and a one-line description of what the command-line option does (message).
The short_usage string is also used only when constructing the usage message. It forms the component of the usage message that follows the program name (i.e. argv[0]).
The optional short_options string is the normal getopt command-line option specification string, using individual characters (those with arguments are designated as such using the ':' character) - as used by all getopt implementations.
A facility is provided to extend the existing set of common options with additional options, as well as to re-task the standard options into non-standard roles for individual tools. The latter is achieved using the override method, which allows a callback function to be provided which will be called on receipt of every argument, prior to common processing. If this callback returns a non-zero value the common processing will be short-circuited for that option, otherwise processing continues. Thus, aach client tool is free to choose exactly which of the standard options they wish to support - this can be all, some, or none, and no matter what they choose, each tool always has access to the long option parsing capability and the usage message generation facility.
The remaining pmOptions structure fields are filled in as a result of processing the arguments, and are largely self-explanatory. Further discussion of these is deferred to the ``FLAGS VALUES'' section below. The error field contains a count of errors detected during option processing. These can be either usage or runtime errors, as indicated by the flags field (set, and passed out to the caller). Typically, a command line tool will fail to start successfully and will produce an error message (e.g. via pmUsageMessage) if the error field is non-zero at the end of either pmGetOptions or pmGetContextOptions.
Some command line option post-processing can only be performed once the tool has established a PMAPI context via pmNewContext(3). This processing includes use of context-aware timezones (-z), and time window processing (-A, -O, -S, -T) that may be affected by the timezone, for example. The pmGetContextOptions function is available for such situations, and it completes any remaining processing of opts with respect to the ctx context identifier given.
The pmUsageMessage function generates a usage message for the tool, and included both standard PCP options and custom options for each tool, as specified by the pmLongOptions array. It supports grouping of options (via PMAPI_OPTIONS_HEADER) as well as neat formatting of all options - short and long - their arguments, and individual explanatory messages. It will build this usage message using pmprintf(3) upon which it will issue a single pmflush(3) before returning to the caller, provided the PM_OPTFLAG_USAGE_ERR flag is set in flags, which will happen automatically during option parsing, when usage errors are detected.
In certain situations, such as recording lists of host specifications or PCP archive paths, the pmGetOptions routine may allocate memory, and store pointers to it within opts. Should a program wish to free this memory before exiting, it can use the pmFreeOptions routine to do so. This is safe to call irrespective of whether memory was allocated dynamically, provided that opts was zeroed initially.
Some environment variables may be used as an alternative to the command line options. The use of these mechanisms is primarily for internal use by PCP tools. General users should choose the command line options as this provides a clearer indication of intent, makes debugging issues easier and avoids confusion over possible conflicts between the command line options and the environment variables (where the command line options usually ``win'').
The following table describes the environment variables that may be used to set values as an alternative to command line options.
Environment | Short | Long | Meaning |
Option | Option | ||
$PCP_ALIGN_TIME | -A | --align | align sample times on natural boundaries |
$PCP_ARCHIVE | -a | --archive | metrics source is a PCP archive |
$PCP_ARCHIVE_LIST | --archive-list | comma-separated list of metric source archives |
$PCP_FOLIO | --archive-folio | metric source is a mkaf (1) archives folio |
$PCP_DEBUG | -D | --debug | a comma-separated list of pmSetDebug (3) debugging options |
$PCP_GUIMODE | -g | --guimode | start in GUI mode with new pmtime (1) time control |
$PCP_HOST | -h | --host | metrics source is pmcd (1) on a host |
$PCP_HOST_LIST | --host-list | comma-separated list of metric source hosts |
$PCP_SPECLOCAL | -K | --spec-local | optional additional DSO PMDA specification for local connection, see pmSpecLocalPMDA (3) |
$PCP_LOCALPMDA or $PCP_LOCALMODE | -L | --local-PMDA | metrics source is local connection to a DSO PMDA |
$PCP_NAMESPACE | -n | --namespace | use an alternative Performance Metrics Name Space (PMNS) |
$PCP_UNIQNAMES | -N | --uniqnames | like -n but only one name allowed for each metric in the PMNS |
$PCP_ORIGIN or $ORIGIN_TIME | -O | --origin | initial sample time within the time window |
$PCP_GUIPORT | -p | --guiport | port for connection to an existing pmtime (1) time control |
$PCP_START_TIME | -S | --start | start of the time window |
$PCP_SAMPLES | -s | --samples | terminate after this many samples |
$PCP_FINISH_TIME | -T | --finish | end of the time window |
$PCP_INTERVAL | -t | --interval | sampling interval |
$PCP_TIMEZONE | -Z | --timezone | set reporting timezone |
$PCP_HOSTZONE | -z | --hostzone | set reporting timezone to local time of metrics source |
The pmGetOptions function returns either when it detects a command-line option that is not one of the standard PCP set, or when the end of the command line options has been reached (at which point -1 is returned). Both the pmgetopt_r and pmGetOptions routines return control to the caller in the same way that a regular getopt call would, with the return value indicating either the end of all processing (-1), or the single character form of the option currently being processed, or zero for the special long-option-only case. For all option-processing cases, the opts structure is returned containing filled out optarg, opterr, optopt, optind, and index fields as normal (do NOT use the global optarg or optind from your platform C library, these will NOT be modified).
pmGetOptions does not return to the caller when any of the standard PCP options are being processed (although the override mechanism can be used to still detect such options if needed).
The pmGetContextOptions function returns zero on success, or a negative PCP error code on failure. The error field within the opts parameter will also be non-zero in the latter case.
Environment variables with the prefix PCP_ are used to parameterize the file and directory names used by PCP. On each installation, the file /etc/pcp.conf contains the local values for these variables. The $PCP_CONF variable may be used to specify an alternative configuration file, as described in pcp.conf(5). Values for these variables may be obtained programmatically using the pmGetOptions(3) function.
PCPIntro(1), pmcd(1), pminfo(1), pmstat(1), getopt(3), getopt_long(3), pmNewContext(3), pmGetConfig(3), pmprintf(3), pmflush(3) and PMAPI(3).
PCP | Performance Co-Pilot |